import * as utils from './radar-utils.mjs'; const radarFullSize = { width: 2550, height: 1600 }; const radarFinalSize = { width: 640, height: 367 }; const fetchAsBlob = async (url) => { const response = await fetch(url); return response.blob(); }; const baseMapImages = new Promise((resolve) => { fetchAsBlob('/images/maps/radar.webp').then((blob) => { createImageBitmap(blob).then((imageBitmap) => { // extract the black pixels to overlay on to the final image (boundaries) const canvas = new OffscreenCanvas(imageBitmap.width, imageBitmap.height); const context = canvas.getContext('2d'); context.drawImage(imageBitmap, 0, 0); const imageData = context.getImageData(0, 0, imageBitmap.width, imageBitmap.height); // go through the image data and preserve the black pixels, making the rest transparent for (let i = 0; i < imageData.data.length; i += 4) { if (imageData.data[i + 0] >= 116 || imageData.data[i + 1] >= 116 || imageData.data[i + 2] >= 116) { // make it transparent imageData.data[i + 3] = 0; } } // write the image data back context.putImageData(imageData, 0, 0); resolve({ fullMap: imageBitmap, overlay: canvas, }); }); }); }); onmessage = async (e) => { const { url, RADAR_HOST, OVERRIDES, radarSourceXY, sourceXY, offsetX, offsetY, } = e.data; // get the image const modifiedRadarUrl = OVERRIDES.RADAR_HOST ? url.replace(RADAR_HOST, OVERRIDES.RADAR_HOST) : url; const radarResponsePromise = fetch(modifiedRadarUrl); // calculate offsets and sizes const radarSource = { width: 240, height: 163, x: Math.round(radarSourceXY.x / 2), y: Math.round(radarSourceXY.y / 2), }; // create destination context const baseCanvas = new OffscreenCanvas(radarFinalSize.width, radarFinalSize.height); const baseContext = baseCanvas.getContext('2d'); baseContext.imageSmoothingEnabled = false; // create working context for manipulation const radarCanvas = new OffscreenCanvas(radarFullSize.width, radarFullSize.height); const radarContext = radarCanvas.getContext('2d'); radarContext.imageSmoothingEnabled = false; // get the base map const baseMaps = await baseMapImages; baseContext.drawImage(baseMaps.fullMap, sourceXY.x, sourceXY.y, offsetX * 2, offsetY * 2, 0, 0, radarFinalSize.width, radarFinalSize.height); // test response const radarResponse = await radarResponsePromise; if (!radarResponse.ok) throw new Error(`Unable to fetch radar error ${radarResponse.status} ${radarResponse.statusText} from ${radarResponse.url}`); // get the blob const radarImgBlob = await radarResponse.blob(); // assign to an html image element const radarImgElement = await createImageBitmap(radarImgBlob); // draw the entire image radarContext.clearRect(0, 0, radarFullSize.width, radarFullSize.height); radarContext.drawImage(radarImgElement, 0, 0, radarFullSize.width, radarFullSize.height); // crop the radar image without scaling const croppedRadarCanvas = new OffscreenCanvas(radarSource.width, radarSource.height); const croppedRadarContext = croppedRadarCanvas.getContext('2d'); croppedRadarContext.imageSmoothingEnabled = false; croppedRadarContext.drawImage(radarCanvas, radarSource.x, radarSource.y, croppedRadarCanvas.width, croppedRadarCanvas.height, 0, 0, croppedRadarCanvas.width, croppedRadarCanvas.height); // clean the image utils.removeDopplerRadarImageNoise(croppedRadarContext); // stretch the radar image const stretchCanvas = new OffscreenCanvas(radarFinalSize.width, radarFinalSize.height); const stretchContext = stretchCanvas.getContext('2d', { willReadFrequently: true }); stretchContext.imageSmoothingEnabled = false; stretchContext.drawImage(croppedRadarCanvas, 0, 0, radarSource.width, radarSource.height, 0, 0, radarFinalSize.width, radarFinalSize.height); // put the radar on the base map baseContext.drawImage(stretchCanvas, 0, 0); // put the road/boundaries overlay on the map baseContext.drawImage(baseMaps.overlay, sourceXY.x, sourceXY.y, offsetX * 2, offsetY * 2, 0, 0, radarFinalSize.width, radarFinalSize.height); const processedRadar = baseCanvas.transferToImageBitmap(); postMessage(processedRadar, [processedRadar]); };